Technology Advancement In Robotic Knee Replacement
The use of robots in knee replacement surgery is changing the face of orthopedic surgery through providing a more exact profile to joint replacement. This advanced technology has rapidly grown popular in the medical field since it can improve surgical performances and after-surgery rehabilitation periods. In this article, we will enlighten our readers on developments made in robotic knee replacement procedure, how it is done, the advantages accrued from it, and what the future of this technology entails.
Understanding Robotic Knee Replacement
Robotic assisted total knee arthroplasty involves combining the input of orthopaedic surgeons and the use of a robotic system. Different from other knee replacement surgeries, which may depend on the capability of the operating surgeon, robotic surgery employs robotic arms and surgical imaging to fit the knee implant as required.
How It Works
The process starts with the comprehensive evaluation of the knee part of the patient that seeks the help of an osteopath. Surgeons have to employ complex imaging to map the knee joint and this is the model that they use during the operation. This model makes it possible for the surgeons to take very close preparatory measures on how to operate depending on the patient’s make up.
In performing the surgery, a robotic arm helps the surgeon by offering advice and information in a real-time manner. The arm again, is used to shape the bone and also place the implant correctly, thus minimising the human impact factor in the overall surgical strategy. This level of accuracy is most important because it decides the longevity and functionality of the implant that is to be done in the body.
The Benefits of Robotic Knee Surgery
Robotic knee replacement offers several advantages over traditional methods:
Enhanced Precision: Robotic technologies in this case are valuable as they provide precision in the operations such that bones are well cut and implants well placed for maximum and enhanced stability.
Faster Recovery: Patient satisfaction, reduced length of stay by hospital and short healing time are all likely to be realised since minimal invasive procedure is employed in performing robotic surgeries.
Reduced Pain: Contrary to other surgeries, robotic practices spare most tissues, which means that patients have motives of post-surgery pain.
Customised Surgery: Personalised surgical operations mean that every specific patient’s surgical plan is created from scratch hence increases overall success rates and satisfaction among patients.
Lower Complication Rates: Such surgeries do not cause misalignment or improper implant positioning which are associated with other common complications.
Types of Robotic Systems
Several robotic systems are currently used in knee replacement surgeries:
MAKO plasty: This system combines robotic arm technology with computer navigation for the partial and total knee replacement surgeries.
Stryker’s Mako System: It is well known for updating the surgeon instantly during an operation, any implant positioning is as perfect as can be.
NAVIO Surgical System: An interactive as well as a real-time plan guiding system for minimising the errors in bone resection or implant placement.
Future of Robotic Knee Replacement
Due to technological advancement there is a possibility for robotic knee replacement surgery. Future advancements may include:
Improved Imaging Techniques: New imaging technologies could result in rendering still more accurate 3D surfaces of the patients’ knees that would be beneficial in surgical planning.
Artificial Intelligence Integration: Using big data, AI could help in looking for correlations between previous surgeries and outcomes and helping to improve surgical procedures still more.
Greater Accessibility: Because of the downward trend in cost, and increase in utilisation of robotics, more patients are likely to receive robotic assisted surgeries.
Robotics knee replacement is not simply a matter of refining surgical images; it is about delivering better care to suffering human beings. Through proper research and development in this area, this field shall serve as a solution to enhancing the patients’ recovery experiences and overall lives of patients who have knee complications.
Conclusion
Future possibilities and developments of robotic knee replacements are in increasing the safety of surgeries. Greater accuracy, a shorter time to return to baseline, and fewer complications has made this new technique a literal life-changer for many bodyform recipients. Joint Replacement Surgeon such as Dr Rajesh Malhotra are right at the cutting edge of this medical reformation and use these methods in his practice to the best. Therefore, it is obvious that the further development of robotic technology will remain a key factor to the future of orthopedic surgery.